Browse by Authors and EditorsNumber of items: 18. Petrovic, Sanja (2017) "You have to get wet to learn how to swim" applied to bridging the gap between research into personnel scheduling and its implementation in practice. Annals of Operations Research . ISSN 1572-9338 Liu, Ying, Dong, Haibo, Lohse, Niels and Petrovic, Sanja (2016) A multi-objective genetic algorithm for optimisation of energy consumption and shop floor production performance. International Journal of Production Economics, 179 . pp. 259-272. ISSN 0925-5273 Bykov, Yuri and Petrovic, Sanja (2016) A step counting hill climbing algorithm. Journal of Scheduling, 19 (4). pp. 479-492. ISSN 1099-1425 Petrovic, Sanja, Khussainova, Gulmira and Jagannathan, Rupa (2016) Knowledge-light adaptation approaches in case-based reasoning for radiotherapy treatment planning. Artificial Intelligence in Medicine, 68 . pp. 17-28. ISSN 0933-3657 Liu, Ying, Dong, Haibo, Lohse, Niels, Petrovic, Sanja and Gindy, Nabil (2014) An investigation into minimising total energy consumption and total weighted tardiness in job shops. Journal of Cleaner Production, 65 . pp. 87-96. ISSN 0959-6526 Burke, Edmund, MacCloumn, Barry, Meisels, Amnon, Petrovic, Sanja and Qu, Rong (2007) A graph-based hyper heuristic for timetabling problems. European Journal of Operational Research, 176 (1). pp. 177-192. ISSN 0377-2217 Burke, Edmund, Petrovic, Sanja and Qu, Rong (2006) Case Based Heuristic Selection for Timetabling Problems. Journal of Scheduling, 9 (2). pp. 115-132. ISSN 1094-6136 Burke, Edmund, MacCarthy, Bart L., Petrovic, Sanja and Qu, Rong (2006) Multiple-retrieval case-based reasoning for course timetabling problems. Journal of the Operational Research Society, 57 (2). pp. 148-162. ISSN 0160-5682 Burke, Edmund, Dror, Moshe, Petrovic, Sanja and Qu, Rong (2005) Hybrid Graph Heuristics within a Hyper-heuristic Approach to Exam Timetabling Problems. In: The Next Wave in Computing, Optimization, and Decision Technologies. Springer, pp. 79-91. Burke, Edmund, Eckersley, Adam, McCollum, Barry, Petrovic, Sanja and Qu, Rong (2004) Analysing Similarity in Exam Timetabling. In: International Conference on the Practice and Theory of Automated Timetabling 2004, Aug 2004, Pittsburg, US. Burke, Edmund, Eckersley, Adam, McCollum, Barry, Petrovic, Sanja and Qu, Rong (2004) Analysing Similarity in Exam Timetabling. In: International Conference on the Practice and Theory of Automated Timetabling 2004, Aug 2004, Pittsburg, US. Burke, Edmund, Eckersley, Adam, McCollum, Barry, Petrovic, Sanja and Qu, Rong (2003) Similarity Measures for Exam Timetabling Problems. In: Multidisciplinary International Conference on Scheduling : Theory and Applications, Aug 2003. Burke, Edmund, Eckersley, Adam, McCollum, Barry, Petrovic, Sanja and Qu, Rong (2003) Similarity Measures for Exam Timetabling Problems. In: Multidisciplinary International Conference on Scheduling : Theory and Applications, Aug 2003, Nottingham. Burke, Edmund, Eckersley, Adam, McCollum, Barry, Petrovic, Sanja and Qu, Rong (2003) Using Simulated Annealing to Study Behaviour of Various Exam Timetabling Data Sets. In: The Fifth Metaheuristics International Conference 2003, Aug 2003, Kyoto, Japan. Petrovic, Sanja and Qu, Rong (2002) Case-Based Reasoning as a Heuristic Selector in a Hyper-Heuristic for Course Timetabling Problems. In: Knowledge-Based Intelligent Information Engineering Systems and Allied Technologies. IOS Press, pp. 336-340. Burke, Edmund, MacCarthy, Bart L., Petrovic, Sanja and Qu, Rong (2002) Knowledge discovery in hyper-heuristic using case-based reasoning on course timetabling. In: International Conference on the Practice and Theory of Automated Timetabling, Aug 2002, Gent Belgium. Burke, Edmund, MacCarthy, Bart L., Petrovic, Sanja and Qu, Rong (2001) Case-based reasoning in course timetabling: an attribute graph approach. In: International Conference on Case-Based Reasoning, Jul 2001, Vancouver, Sanada. Burke, Edmund, MacCarthy, Bart L., Petrovic, Sanja and Qu, Rong (2000) Structured cases in case-based reasoning: re-using and adapting cases for time-tabling problems. Knowledge-Based Systems, 13 (2-3). pp. 159-165. |